What is LEED certification, and how does it work?

From its initial conceptualization in the early 1990’s by the US Green Building Council, LEED, or Leadership in Energy and Environmental Design, has grown to become one of the most widely recognized third-party verification programs for sustainable buildings in the world. Through the implementation of sustainable design, construction, and operational practices, buildings registered in the LEED certification program have the opportunity to earn credits in several distinct categories such as:

  • Sustainable Sites
  • Water Efficiency
  • Energy and Atmosphere
  • Material and Resources
  • Indoor Environmental Quality

Depending on the number of credits achieved, these buildings can be awarded one of four levels of LEED certification ranging from Certified to Platinum, each of which recognizes the Owner’s commitment to sustainability.

At Warfel, it is our responsibility to help ensure that our client not only achieves the LEED certification goal that they set at the beginning of the project, but to help them exceed it. In order to do so, we work with both the client and design professionals throughout all phases of the project, from pre-construction/design through construction, in order to help them obtain the necessary amount of credits needed to reach the desired goal.

Some of the more common LEED credits that Warfel can help our client achieve include:

  • Building Product Disclosure and Optimization – Environmental Product Declarations: The use of building materials that have verified improved life cycle impacts, from their initial extraction and manufacturing to their demolition and recycling.
  • Construction and Demolition Waste Management: The development and implementation of a construction and demolition waste management plan that reduces the strain placed on nearby landfills by diverting a certain percentage of the overall project waste to be recycled and/or reused.
  • Low-Emitting Materials: The use of materials located within the building’s waterproof membrane that comply with the thresholds set by LEED for Low Emitting Materials.
  • Construction Indoor Air Quality Management Plan: The establishment of better quality indoor air prior to occupancy through flushing out the building and/or testing the air according to ASTM, EPA and ISO standards.

In short, there are multiple LEED credits that we as a general contractor can help our clients obtain throughout the LEED certification process to help them achieve and even exceed their LEED certification goals and ultimately provide them with a best-in-class green building experience.

Constructing Solutions: Brethren Village Bistro Project

In July 2015, Warfel Construction began a partnership with Brethren Village Retirement Community during the design phase of the Village Center Bistro renovation. Our preconstruction team partnered with a local architect, interior designer, and engineers to present Brethren Village with a design that transformed the existing coffee shop/café into a brand-new Bistro and atrium.

The Village Center is at the heart of many Brethren Village residents’ daily lives. During the renovations, it was imperative that normal access to the library, pharmacy, village store, and Chapel (all of which are accessed through the Village Center) remain open. It became apparent that we would only be able to achieve this by strategically phasing the ceramic tile work and finishes in this highly accessed area. For the skylight, the scaffolding was erected so that the stairway in the Village Center remained accessible. The result was a beautifully finished product which exposed the atrium to additional natural light and long sight lines for an open feeling.

Warfel gutted the café and installed a multi-station, full-service bistro. The new bistro is equipped to serve hot grill items, sandwiches and hoagies, soups, salads, and ice cream for dessert. The centerpiece of the bistro is a state-of-the-art pizza oven. The new bistro renovations allow Brethren Village to provide their residents with a restaurant experience in the comfort of their own home.

The project also included an addition off of the Village Manor hallway to provide storage space and other amenities for the Bistro, including new restrooms and a tray return area. As part of the renovation process, we removed the breezeway that connected Village Manor to Terrace Crossing, creating a much more open courtyard available to all residents.

Through our partnership with the owner, design team, and subcontractors, Warfel helped Brethren Village achieve their goal of restaurant-quality food service and an unparalleled dining experience.

Handle with Care: Managing Historical Renovations | FAQ

Whether they’re expanding or updating a school, church, theater, or retail space, builders approach historical renovation projects differently than they do brand new, glossy, modern buildings. These are some of the most frequently asked questions about how our construction teams work to match historical elements, bring historic buildings up to code, and introduce sustainable building practices.

How do builders approach a historic renovation or expansion differently than other projects?

A great deal of thought and consideration goes into a historical project. When planning an addition or re-work to the existing building, structural considerations are incredibly important to prevent the building from settling or shifting. Early in the preconstruction process, we pay close attention to issues such as matching building elements, working to maintain the integrity of the original building, and understanding existing mechanical, electrical and plumbing systems. The historic district or historical review board helps ensure the building’s integrity by reviewing the design team’s plans.

We carefully review the staging of the project. Typically, historical renovation projects come with site constraints, including buildings that must remain occupied. We plan for material deliveries, coordination of major construction events, and traffic and pedestrian flow throughout the site.

How do architects and designers work to match the integrity of historical elements?

It’s a long process, requiring extensive collaboration. Take masonry, for example. We provide samples of the planned materials to be used during construction. In a thorough review, we determine which samples match the natural weathering on the building. If we find a sample we think will work, the next step is to create a mock-up panel. This panel can range in size but creates a sample of the construction. It can then be reviewed in conjunction with the face of the building to evaluate the match. If it’s not the right match, we repeat the process. This process is but one piece of the entire project puzzle. We go through these steps with each building element to ensure we are matching the current elements of the building if desired. Today, there is a vast difference in material availability compared to the period of the original construction.

What limitations are most frequently encountered? How do you overcome those limitations?

When we’re working on a building expansion or renovation in a historic district, we have to be careful to comply with review boards. For example, in Lancaster City, it’s the Historical Architectural Review Board (HARB). They review the design or changes in material to the exterior of the building. We can make some independent choices, such as changing the exterior color and certain architecture elements, but we cannot change the integrity of the building. At the end of the day, the building must maintain design elements to make sure it doesn’t take away from the integrity of the building character, and the charm of the buildings around it.

Historic renovations or additions require extreme care. We recently worked to add a basement and atrium onto St. James Episcopal Church, in Lancaster; a structure originally built in the 1700s.  Working on a structural foundation that was over 200 years old had its challenges! On such a historic site, construction can move slowly, so we planned a project schedule that allowed enough time for all necessary tasks.

How do you handle the tasks of bringing an older historic building up to modern building codes?

During renovation or addition projects, we have the ability to open walls and update systems. Whether we’re installing new fire alarms, sprinkler pipe or emergency lighting, we can work to update the backbone of these new systems within the walls. However, it’s possible to run into projects where we are not accessing any walls. If this is the case, new design elements can be constructed to create a pathway to hide wiring or piping, and ensure it meets the original building design.

Also, if items such as elevators, new ramps, grab bars, automatic door openers, etc. are required to adhere to ADA codes, we work with the design team to ensure the addition of these items matches the historic feel of the rest of the site.

What steps can be taken to undergo sustainable historic renovation or expansion?

When we’re working on the interior of the building, we have more flexibility to introduce newer and more sustainable materials than we do on the exterior. If the client desires, we can integrate LEED components into the project that can include anything from utilizing local materials, sustainable materials or recycling programs on the job site.

How do your safety plans change when buildings reveal other issues, such as asbestos or lead paint?

Safety is always our priority on any job; but in any renovation project, we pay close attention to confined spaces, silica dust considerations, and completing an environmental survey of the building before demolition, just to name a few.

We perform an environmental study for all renovation projects. We check pipes, flooring, walls, paint, etc. for signs of lead or asbestos containing materials. If elements come back positive for lead paint or asbestos, we hire an abatement contractor to remove it in an environmentally-friendly manner. Then we can proceed. Additionally, we survey the building for structural cracking or settlement which could be detrimental to the project.

Women in Construction and STEM Careers

I started at Warfel in 2011 as a Project Engineer, (our title for an Assistant Project Manager). I was fresh out of college with my shiny new Bachelor’s Degree in Civil Engineering from Bucknell University. On my first day of work, I found myself in a cubicle in the Project Management department surrounded by males tossing around construction lingo and partaking in a pizza eating contest at lunch. As intimidating as it sounds for a young woman who has just entered the construction industry, I was un-phased as my college engineering classmates were 75% male. Warfel has only one other female Project Manager in our department, whom I look up to as a mentor in the company and the industry. But I wasn’t going to let some gender imbalance in my new workplace dampen my enthusiasm about being part of an awesome team, managing the construction of a beautiful new building. Almost six years later, I appreciate the opportunity to be the rare gender on our teams and to bring a female perspective to some of the challenges we face in construction. It’s not always easy to be the only woman sitting in a meeting in a trailer on a jobsite, but it is well worth the opportunity to build relationships with great people and accomplish so much as a team.

Looking at recent statistics in the U.S., only 18 – 19% of individuals receiving degrees in computer science, engineering, or physics are women. Careers in STEM (science, technology, engineering, and math) are growing faster than any other type of occupation, but only a small percentage of females are pursuing them because, even as early as elementary school, young women are often steered into “pink collar” industries. The U.S. Bureau of Labor and Statistics expects the available jobs in STEM fields to increase 17% between 2014 and 2024. In comparison, non-STEM employment is only expected to grow by 12%. This topic is close to my heart because although I was fortunate to be encouraged to pursue my interests in science, math, and architecture during my formative years, I have many female friends and classmates who pursued their STEM interests through a barrage of adversity.

For the past two years, I have been a mentor for high school women through the Women in Business Mentoring Program run by the Lancaster Chamber of Commerce and Industry. This has given me a platform to encourage young women to pursue their passions, no matter what field they may be in. It has also given me a chance to interact with those who know they want to pursue engineering, architecture, or construction, but are unclear what that looks like as a career or how to get there. I love being able to provide job shadowing opportunities for students because it is very exciting and gratifying to see the experience “click” for them and ignite a passion in them to pursue a career in a STEM industry.

When I think about my future at Warfel ten or twenty years from now, my hope is that gender inequality in our industry is only a distant memory. Women in STEM have the opportunity to earn 33% more money than women in other occupations. However, they are also 45% more likely than men to leave jobs in these fields within the first year due to isolation, lack of mentors or sponsors, inadequate feedback, and hostile employment cultures. Warfel does a fantastic job eliminating those barriers that scare many women out of the industry. I have never felt unsupported in my career and I relish the chance to provide mentoring and guidance to those employees joining our company behind me. With 86% of contractors reporting difficulty finding qualified and skilled workers, this could be the time for women to make the move to break through the high-rise ceiling in the construction industry.

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